DE3888288T2 - Propellant charge for wing-stabilized projectile ammunition and process for its manufacture. - Google Patents

Abstract

The invention relates to a propulsive charge for ammunition comprising a finned projectile (5), consisting of a front part (6) and of a rear part (12), the front part surrounding the fin unit of the projectile (5) and the rear part (12) enclosing an ignition means (4). The rear part (12) is integrated in a case (2) and has a recess (10a), in which the front part (6) is engaged partially or completely in order to ensure that these two parts are fixed together. The recess (10a) is delimited by the case (2) alone or both by the case (2) and by the rear part (12) of the charge. The front part (6) is integrated in a housing (7) fitted on the projectile (5) and closed by means of a cover (8) having vents (11), said housing being fitted into the recess (10a) and forming a means for connecting the front part (6) of the charge to the projectile (5). The invention is used for ammunition of the finned arrow type. <IMAGE>

Description

The present invention relates to a propellant charge for a projectile with tail unit, as well as its production method.

Today, arrow projectiles with tail units are part of the normal ammunition equipment of armored vehicles, where space is at a premium. Therefore, efforts were made to reduce the dimensions of these projectiles without reducing their performance, i.e. without reducing the amount of powder in the propellant charge, which led to the projectile tail unit being embedded in the propellant charge. There are currently two main methods used for this embedding:

- The first method involves pouring the required amount of powder into the casing and then forcing the tail assembly of the projectile into this amount of powder, possibly facilitated by vibrating the tail assembly. This method involves high pyrotechnic risks resulting from the inevitable and significant friction between the tail assembly and the propellant powder.

In addition, it is essential to provide a free space inside the projectile casing and above the propellant charge that is larger than the space actually occupied by the tail unit, so that the propellant charge is firmly wedged in place by the projectile.

- In the second method, the projectile and casing are first connected to one another, then the powder is filled through the opening intended for the primer, and then the primer is forced into the propellant charge, whereby there is also a considerable risk of unwanted ignition due to the friction between the propellant powder and the primer, as both are active pyrotechnic elements. In addition, soft or relatively flexible, flammable primers cannot be used in this method.

Another loading method is known from the patent US-A-4 619 201, in which the propellant charge is loaded around the tail unit by jaws mounted on a serrated slide along the die, is compacted, whereby the projectile/propellant charge unit then slides along the die and is thus transported into the projectile casing.

Patent US-A-2 971 426 describes a method for manufacturing a propellant charge for an arrow projectile. This charge is not manufactured in two separate, distinguishable parts at any stage of the manufacturing process.

These manufacturing processes have several shortcomings:

- there is considerable friction between the powder and the die, especially on the cheek edges, which leads to considerable ignition risks when the propellant charge is filled into the casing.

- it is impossible to insert a primer into the resulting compact charge.

Patent GB-A-2 136 929 describes a caseless ammunition whose charge consists of two separate, clearly distinguishable parts: a projectile-side part

and the actual propellant charge, which are generally considered to be clean in the sense of the preamble to the invention. However, the projectile and the propellant charge are inserted one after the other into the chamber of a weapon at the time of firing.

The aim here is to supply a family of projectiles of the same caliber, whose total length always corresponds to that of the propellant charge. This goal is achieved by attaching part of the propellant charge to the projectile. This makes it possible to use different types of projectiles of the same caliber in a given weapon. The two ammunition parts remain separate.

Patent FR-A-2 229 037 describes an arrow ammunition in which the projectile is firmly connected to the casing by a connecting part. The free space between the tail unit and the casing is filled with powder. This space is isolated from the rest of the casing by a partition to prevent any leakage. The front part of the propellant charge is integrated into the casing from the start.

The present invention aims to remedy these disadvantages by offering an easily usable propellant charge that can be easily adapted to different types of ammunition and their ballistic requirements and prevents any friction of the powder grains.

The subject of the present invention is therefore a propellant charge for ammunition with a tail assembly, which consists of a front and a rear part, the front part surrounding the tail assembly of the projectile and the rear part containing an ignition device, characterized in that the front part integrated into a casing is firmly connected to the projectile via a connecting part, this connecting part consisting of a fragmentable and/or combustible capsule which is placed on the projectile and fits into a recess in the casing.

The front part consists of the powder block of the propellant charge, which is clumped together by a binding agent.

The front part consists of granulated propellant powder, which is held in place by a capsule with a shatterable and/or flammable lid.

The front part of the propellant charge consists of powder sticks.

The front and rear parts are made of different types of powder.

The manufacturing process of a propellant charge according to the invention is characterized in that:

- the front part of the propellant charge is connected to the tail section of the projectile outside the casing,

- the rear part of the propellant charge is inserted into the casing in such a way that a recess is created between the highest point of the casing and the highest point of the rear part, which enables the projectile carrying the front part of the propellant charge to be placed on and firmly connected to the casing,

- then the projectile is placed on top, whereby the firm connection between the projectile and the casing is made by gluing.

An advantage of the present invention is that during the assembly of an ammunition containing a projectile with a tail unit, any friction of powder grains is avoided.

A further advantage is the simple, cost-effective production of the propellant charge.

Further advantages of the invention are made clear by the following description of the various manufacturing methods, in conjunction with the drawings in the appendix, in which:

Figure 1 shows the simplified section of an ammunition before the projectile and casing are joined, using a first method of manufacturing the propellant charge according to the invention.

Figure 2 shows the cross-section of a variant.

When looking at Figure 1, it is clear that the propellant charge of the ammunition consists of a front part 1a and a rear part 1b. Part 1a consists of the projectile with tail assembly 5, of which only the tail assembly has been shown, and the front part 6 of the propellant charge. Part 1b consists of the casing 2 which is firmly connected to the base 3 of the projectile. A primer 4 of a known type is firmly connected to the casing, e.g. by means of a thread. The casing 2 can be flammable and the base can be made of metal. This casing receives the rear part 12 of the propellant charge, either in the form of granulated powder or powder impregnated with a binding agent which is poured in place. The casing is not completely filled with propellant powder, but a space of height n is left between the surface 13 of part 12 and the lip 14. In the present case, a recess 10a is delimited exclusively by the casing wall 2. Part 1a has the form of a combustible capsule 7 made of the same material as the casing and is firmly connected to the projectile 3 at the level of an annular recess 19. The capsule 7 is filled with a powder mass which forms the front part 6 of the propellant charge and completely surrounds the tail of the projectile 5 and is consequently firmly connected to the latter. The capsule 7 is closed by a cover 8 made of the same material which is glued to the capsule at the level of a constriction 9 of the latter and has air holes 11, the function of which will be explained in more detail later. The capsule 7 and the cover 8 thus form a connection between the front part 6 of the propellant charge and the projectile 5.

The capsule 7 has a constriction 10b over a length L; this constriction is adapted almost exactly to the inner diameter of the casing 2 so that it can be inserted into the casing.

The values of L and H are chosen so as to allow the connection of the projectile 5 carrying the capsule 7 to the casing, while maintaining the desired overall length of the complete ammunition. The solid connection is made by a known means, e.g. by gluing, squeezing or riveting. In this way, the method for manufacturing the propellant charge according to the invention can be illustrated; this method comprises the following steps:

- Outside the casing, the projectile 5 is firmly connected to a first part of the propellant charge by attaching the capsule 7 to the projectile, filling it with propellant powder and then closing the capsule with the lid 8.

- The casing 1 is filled with propellant powder, leaving a recess between the highest point of the casing and the propellant charge, which is dimensioned such that the projectile carrying the capsule can be placed on top and firmly connected to the casing.

This produces an ammunition whose propellant charge consists of at least two parts, the front part being 6, which surrounds the tail unit (here completely), is firmly connected to the projectile and forms the solid connection between capsule and lid.

Once the powder has been poured into the capsule, the tail assembly is not forced into the powder, thus eliminating any risk of premature ignition. By pouring the powder into the casing 2 containing the primer 4, it is no longer necessary to force the primer into the powder, thus again eliminating any risk of premature ignition. In addition, the tail assembly of the projectile is surrounded by powder, thus eliminating any penetration of the tail assembly into the second part of the propellant charge, which is not firmly attached to the projectile, and its contact with the powder; thus, once again, when the projectile, which contains the front part of the propellant charge, is firmly attached to the casing containing the rear part of the propellant charge, any risk of premature ignition is completely eliminated.

The use of the invention also does not cause any disturbance with regard to the ignition of the propellant charge, since the capsule 7 is combustible and the air holes 11 facilitate the transmission of the flame from the rear part 12 of the propellant charge to the front part 6.

It is possible to use a capsule and/or a lid that are not completely combustible but are capable of fragmentation, i.e. that have a certain number of weak points (not shown here) that, under the influence of the gas pressure during combustion of the propellant charge, lead to the desired fragmentation.

Figure 2 shows an ammunition before the casing and projectile are firmly connected, whereby the simplified section shows two variants of the propellant charge according to the invention. The differences in relation to the manufacturing method shown in Figure 1 are only in the area of the front part 6 of the propellant charge, which is firmly connected to the projectile. The rear part 12 of the The propellant charge is identical to that described above. In the left half-section, the front part 6 of the propellant charge is formed by a powder mass agglomerated with a binding agent around the tail unit, which thus forms the connecting means between this part 6 of the propellant charge and the projectile 5. The process for producing such a powder mass, the properties of the binding agent and its shaping around the tail unit are carried out using the technique of solid charges known to all experts and are not described further here.

In order to improve the mechanical strength of the powder mass that forms the front part of the propellant charge 6 against the stresses during handling and assembly, it is possible to use a capsule 7, the outer surface of which completely or partially covers the powder mass. This variant is shown in the right half-section of Figure 2. The capsule is made from flammable and/or splinterable material, as described above. The projectile and casing are assembled as described in Figure 1. Here, too, a recess 10a is provided in the casing 2, which makes it possible to place the projectile on the casing 2 and firmly connect the two together. The use of a capsule 7 facilitates the firm connection by gluing or crimping the casing 2 and the projectile 5, whereby the powder mass is protected from any stress. If no capsule is used, this powder mass can be protected against thermoinitiation by a protective varnish.

Starting from a given ammunition geometry, it is possible to vary the total mass of the propellant charge and thus also the ballistic performance of the ammunition. For example, it is possible to place the rear part 12 of the propellant charge in the casing and to design it so that after the solid connection of the projectile 5 and the casing has no contact with the front part. To do this, it is sufficient to choose a value of H greater than L.

It is also possible to design the front part 6 of the propellant charge so that it only partially surrounds the tail assembly. This leaves a free space in the capsule 7 and it is advisable to place a wedge inside the capsule to ensure the axial symmetry of the front part of the propellant charge (which is essential for arrows with tail assembly). In any case, the advantages in terms of safety described in the preamble are guaranteed by the fact that, thanks to the invention, the tail assembly does not penetrate and come into contact with the rear part of the propellant charge, which is not firmly attached to the projectile. This eliminates any risk of friction or heating of the propellant charge during the impact of the projectile and its connection to the casing.

The two parts of the propellant charge can be given different shapes, in particular it is possible to design the rear part in such a way that the upper side has a bowl-shaped recess into which the tail unit fits after the projectile 5 has been firmly connected to the casing 2. In this case there is no risk of heating because there is no contact between the tail unit and the rear part of the propellant charge.

It is also possible to produce a propellant charge of the type described in Figure 2, in which H is slightly smaller than L and the rear part 18 of the tail unit is flush with the rear side 15 of the powder mass 6.

The projectile and the casing are assembled by gently pressing the two parts of the propellant charge together. Here, too, there is no risk of heating, because even if contact is actually made, the tail unit does not penetrate the second part of the propellant charge.

Claims (6)

1. Propellant charge for an ammunition with a projectile that has a tail assembly (5), consisting of a front part (6) and a rear part (12), the front part surrounding the tail assembly of the projectile (5) and the rear part (12) having an ignition device (4), characterized in that the front part (6), which is integrated into a casing (2), is firmly connected to the projectile (5) via a connecting part, this connecting part being formed by a fragmentable and/or combustible capsule (7) placed on the projectile (5) and fitting into a recess (10a) in the casing (2). 2. Propellant charge according to claim 1, characterized in that the front part (6) consists of a propellant charge powder block which has been agglomerated with a binding agent. 3. Propellant charge according to claim 1, characterized in that the front part (6) consists of granulated propellant powder which is held in the capsule by a shatterable and/or combustible lid (8). 4. Propellant charge according to claim 3, characterized in that the front part (6) of the propellant charge consists of rod-shaped propellant powder. 5. Propellant charge according to one of the claims 1 to 4, characterized in that the front and rear parts consist of different types of powder. 6. Manufacturing process of a propellant charge according to one of the above claims, characterized in that: - the front part (6) of the propellant charge and the tail section of the projectile (5) are firmly connected to one another outside the casing, - the rear part (12) of the propellant charge is placed in the casing, whereby between its highest point and the highest point of the rear part provides a recess (10a) which is dimensioned so as to allow the projectile (5) to be placed on the front part of the propellant charge and the projectile to be firmly connected to the casing, - the projectile (5) is placed on the casing (2) and the two parts are firmly connected by gluing.